Two 4.00-cm wide charged plates oriented horizontally source a vertical, uniform 100-N/C electric field. An electron ini- tially moving at 3.00 × 10€ m/s enters the region between the plates. (a) Calculate the vertical displacement the electron undergoes in passing through the plates. (b) Determine the velocity (magnitude and direction) of the electron as it exits the field. Ignore the fringing of the field. Vo

Two 4.00-cm wide charged plates oriented horizontally source a vertical, uniform 100-N/C electric field. An electron ini- tially moving at 3.00 × 10€ m/s enters the region between the plates. (a) Calculate the vertical displacement the electron undergoes in passing through the plates. (b) Determine the velocity (magnitude and direction) of the electron as it exits the field. Ignore the fringing of the field. Vo

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter15: Electric Forces And Electric Fields

Section: Chapter Questions

Problem 24P: (a) Find the magnitude and direction of the electric field at the position of the 2.00 C charge in...

See similar textbooks

Similar questions

Two thin conducting plates, each 25.0 cm on a side, are situated parallel to one another and 5.0 mm apart. If electrons are moved from one plate to the other, what is the electric field between the plates?
(a) Find the magnitude and direction of the electric field at the position of the 2.00 C charge in Figure P13.13. (b) How would the electric field at that point be affected if the charge there were doubled? Would the magnitude of the electric force be affected?
Determine the amount of work done to move a 12-nC chargeagainst the electric field of a disk of radius 2.5 m and chargedensity −20-µC/m^2 from ℎ = 2 m to ℎ = 3 m away the disk,along its axis.Answer: 4.0232 mJRepeat the previous problem, where the electric field is dueto a disk, but this time, instead of a disk, consider a ring ofsame radius and charge density −20-µC/mAnswer: 1.9067 mJ
a gold nucleus emanates an electric field, holding all its electrons in place. how strong is the electric field experienced by a single electron from its outermost orbital, loctaed at 136 pm? how fast is it moving on its circular orbit, assuming it has a hypothetical plane orbit? how much kinetic energy is gained by the electron?
How far the test charge of 0.0056c rest reside inside Electric field with intensity of 0.007N up that it can feel a force of 0.004N?
The visible portion of a lightning is preceded by an invisible stage in whicha column of electrons moves from a cloud to the ground. The linear chargedensity λ along the column is typically -1 x 10 -3 C/m. If air molecules areionized in an electric field exceeding 3 x 10 6 N/C, what is the radius of thecolumn?
An Earthed metalic spherical shell of radius 5 cm, its center at the origin. The magnetude of the electric field intensity at a point 1 cm from the center due to a pont charge -20 nC at 10 cm from the center is: 0.56 mV/m O 0.56 V/m - 0.56 mV/m Zero V/m
The classic Millikan oil drop experiment was the first to obtain an accurate measurement of the charge on an electron. In it, oil drops were suspended against gravity by a vertical electric field. GI Assume the oil drop to be 2.20 μm in radius and have a density of 957 kg/m³. (a) Find the weight of the drop. N + microscope (b) If the drop has a single excess electron, find the magnitude of the electric field strength needed to balance its weight. N/C
An electron is placed in a uniform electric field of (16nN/C) directed north created by two horizontafml parallel plates that are (147) apart. The electron accelerates from rest, starting at the negative plate. What is the net force and acceleration acting on the electron? How long did it take the electron to get from one side of the plate to the other?
The velocity of a particle (m -10 mg g=-4oUCat-0s20m/sin the positive x-direction. If the particle moves in a uniform electric field of 20 NCinthe positive.x-cirection wnatisthe.particle's velocty (in m/s) at t= 1I s? of 7 tion Select one: OA. 42.00 OB. -68.00 OC. 108.00
The electric field 20 mm to the right from a certain charge has a magnitude of 1.0 x 10^5 N/C and is directed to the left. (a) What is the nature and magnitude of the charge that creates this field? (b) What is the intensity of the electric field E 10 mm from this charge?
A thin, horizontal, 20-cmcm-diameter copper plate is charged to -3.5 nCnC. Assume that the electrons are uniformly distributed on the surface What is the strength of the electric field 0.1 mmmm above the center of the top surface of the plate? What is the strength of the electric field at the plate's center of mass? What is the strength of the electric field 0.1 mmmm below the center of the bottom surface of the plate?